System for identifying packaging in a group

ABSTRACT

A process and system are provided for printing variable data on packaging material at a package printer and machine reading the variable data on a packaging facility packaging line and associating the variable data with other information in a computer database. The process and system render unnecessary the use of a printing stage at the packaging facility, thereby improving packaging efficiency.

TECHNICAL FIELD

A process and system are described for efficiently identifyingindividual product packages.

BACKGROUND

Product packaging is used to identify the contents of the package.Typically, a large quantity of boxes or bags is printed by a printingcompany and then shipped to a packaging facility where the packages arefilled. Additional markings such as alphanumeric characters often areadded to packages at the packaging facility using a low resolutionprinting process in order to track inventory or to provide manufacturingor expiration dates for the package contents. This type of packageidentification requires an additional printing or labeling step at thefactory.

It is known to identify an individual item with a number that isspecific to the item. Costly products such as television sets, computersand automobiles frequently have a unique serial number embossed orotherwise attached to the body of the product so that this number willbe visible on the product during its useful life. Computer software isoften sold with a unique identifying number or watermark inside thepackage in order to limit its reproduction beyond the scope of theintended license.

Courier services and film developers often use unique numericalsequences and/or bar codes that are preprinted on envelopes or packagemailing labels in order to associate a particular envelope or packagewith a sender and a receiver at the time the package is addressed orshipped. This type of shipping procedure typically is used for packagescontaining unique items so that the packages can be located if they arelost.

U.S. Published Patent Application No. 2004/0007868 discloses a bookcovering with a unique identifier printed thereon and a method forprinting a book covering using a printing press which has means forprinting variable data. This document also discloses a method forprinting a product package which includes printing a unique identifieron the package stock with a variable data printing apparatus. Thevariable data can be printed on-press along with non-variable data.

European Patent Application No. 554989-A1 (1993) is directed to a methodof preparing packaging material with variable data printed thereon usingan ion deposition or toner technology process. The non-variable data onthe packaging material either can printed along with the variable datausing ion deposition or toner technology, or in a separate printingprocess using a different type of printing process.

SUMMARY

One embodiment described herein is a process for packaging goods,comprising obtaining a lot of packaging material, printing a first setof variable data directly on the lot of packaging material, deliveringthe lot of packaging material with the first set of variable dataprinted thereon to a packaging line, filling the lot of packagingmaterial on the packaging line with items using an automated packagingmachine, machine reading the first set of variable data on the lot ofpackaging material at the time of filling, and automatically associatinga second set of data relevant to the items with the first set of machineread variable data.

Usually, the first set of variable data is printed on the lot ofpackaging material at an off-site location relative to the packagingline. Filling typically includes forming three dimensional packages fromthe lot of packaging material and sealing the packages. The second setof data frequently includes information relevant to package contents,manufacturing conditions, and/or packaging conditions, and usuallyincludes at least one of the packaging date, time of packaging, ambientpackaging facility conditions such as temperature, humidity and/orpressure at the time of packaging, and the source of the packaged items.

The process sometimes further comprises pre-forming the lot of packagingmaterial after printing and before filling. The quality of individualpackages in the lot of packaging material often is automatically checkedbefore filling.

In many cases, the process further comprises printing a third set ofnon-variable data on the lot of packaging material. The third set ofdata often identifies the packaged items and is usually non-variable.The first and third sets of data can be printed using the same printingdevice.

Usually, the lot of packaging material includes a plurality of packages,and each package in the lot is printed with different variable data. Insome cases, the variable data is common for a small number of packages,such as a small lot of packages or a portion of a large lot, inaccordance with the need for later distinguishing packages andrecovering data associated with them at the time of filling. Forsecurity reasons it may be desirable for the first set of variable datato be coded.

Another embodiment is a process for creating a computer database totrack an individual packaged item in a group of substantially identicalpackaged items, comprising obtaining a lot of unfilled packages having afirst set of variable data printed thereon, automatically filling thepackages, determining the first set of variable data and storing it in acomputer database at the time of filling, and associating the first setof variable data with a second set of data, both the first set ofvariable data and the second set of data being stored in the computerdatabase.

The first set of variable data usually is machine read. Sometimes, thefirst set of variable data is sequentially determined from the startingpoint of the lot. Sequential variable data can be provided with the lotof unfilled packages, and are typically provided by the printingfacility.

Often, the second set of data is input into the database when thepackages are filled. The first set of variable identifying datasometimes is read before the packages are filled. In certain cases, theprocess further comprises automatically checking package quality beforefilling the packages and rejecting low quality packages. The first setof variable identifying data usually is printed at a first location andthe packages are filled at a second location that is remote relative tothe first location.

The computer database typically can be used to recover the second set ofdata for a specific package using data from the first set of variabledata. The computer database frequently can be used to identify whichvalues from the first set of variable data corresponds to specificvalues of the second set of data.

A further embodiment is a system for identifying packages in a group,comprising a first printing device connected to a first computer, thefirst printing device being configured to print variable data on thepackages, an automatic packaging machine disposed at a remote locationrelative to the first printing device, a variable data machine readerpositioned proximate the automatic packaging machine, and a secondcomputer connected to the variable data machine reader, the secondcomputer storing the variable data in a computer database andassociating the variable data with other data in the computer database.A package pre-forming device frequently is included before the automaticpackaging machine. Sometimes, an automated package quality reader isdisposed proximate the automatic packaging machine. In most cases, thecomputer database can be used to recover the second set of data for aspecific package using a value from the first set of variable data. Thecomputer database usually can be used to identify which data from thefirst set of variable data corresponds to specific values of the secondset of data.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing a process for printing variable data onproduct packaging and subsequently reading and associating the data.

FIG. 2 is a diagram showing a process for printing variable data onproduct packaging and subsequently reading and associating the data,with packaging quality being checked before the packaging is filled.

FIG. 3 is a diagram showing an alternative to the embodiment shown inFIG. 2.

FIG. 4 is a schematic drawing showing equipment used in the processesdepicted in FIGS. 1-3.

DETAILED DESCRIPTION

Referring to the drawings and first to FIG. 1, a process for productpackaging is shown and is generally designated as 10. At a packageprinter, packaging material is obtained at 12 and is printed at 14 withboth non-variable data, typically both graphics and alphanumericcharacters which are indicative of the product contents, and alsovariable, unique identifying data. Usually, the non-variable data arethe same on each package in a particular lot, while the variable dataare different on each package in the lot. Sometimes, however, a smallnumber of different sets of non-variable data are intermixed. Thisoccurs particularly when multiple packages are printed from a particularmaster, which are later cut into individual packages. The variable andnon-variable data can be printed with the same printing device ordifferent printing devices. For cases in which one elongated sheet ofpackaging material is later cut to form multiple packages, multiple setsof the non-variable data and the variable data are printed on the sheetat appropriate locations on the sheet.

As used herein, “unique identifying data” include numbers, letters,combinations of numbers and letters, codes having one, two, or threedimensions, including but not limited to bar codes, and machine readablevariable graphics. Frequently, the unique identifying data are numericor alphanumeric variable data. A “lot of packaging material” refers to abatch of packaging material which has been or will be formed intopackages that are part of the same group. The packaging material can bein the form of an elongated sheet or a group of individual packages. Forthe purposes of discussion herein, the term “printing device” shallinclude all different types of printing presses, printers, or otherhardcopy rendering apparatus and devices.

After the data have been printed, the packaging is pre-formed into apackage shape, if necessary, at 16. More specifically, if the packagingmaterial must be cut, folded, adhered or otherwise pre-formed, some orall of the pre-forming can occur at the package printer. Alternatively,all of the pre-forming can take place after delivery to the packagingfacility. Packaging which is pre-formed at the package printer usuallyis sent to the packaging facility in a flattened state and is thenshaped into an appropriate three dimensional shape before it is filled.Large, printed rolls or sheets of packaging material can be shipped tothe packaging facility and then cut, folded, adhered, and furtherpre-formed at the packaging facility prior to filling.

The packaging material is delivered from the package printer to thepackaging facility at 18. After any necessary preparation for filling,including any pre-forming that did not take place at the packageprinter, the packaging is filled at 20. Part of the filling stageusually includes shaping the package into a three dimensional shape andsealing the package. At the time of filling, the unique identifying dataare machine read from the package at 22. Soon thereafter, the read datais associated in a computer.

The variable data may have been printed in a form that can only be readby machine. For example, it can be printed with a material that cannotbe seen without special lighting, or with a material that can be readwith special equipment, such as a magnetic reader. Suitable types ofmachine reading devices include but are not limited to electronicscanners, laser scanners, optical readers, digital cameras, and digitalvideo cameras. As used herein, “at the time of filling” refers to awindow of time before, during and after the filling process. Morespecifically, machine reading of a particular package takes place at aninstant within a timeframe that begins when the package arrives in thepackaging area and ends when the filled package leaves the packagingarea. The packaging area constitutes the rooms or sections of thepackaging facility where packaging takes place. Typically, the machinereading takes place in a time period of less than one second. This timeperiod often is within a timeframe that begins about two minutes beforethe filling process and ends about one minute after the filling process.Machine reading which is done after filling usually is performed on thepackaging line. For oddly shaped packages and flexible bags, it usuallyis preferable to read the variable data before the package is formedinto a three-dimensional shape to ensure that the package can beproperly positioned for accurate machine reading. Packages which cannotbe successfully read optionally can be collected at 21.

As an alternative to reading the variable data on each individualpackage, a first set of variable data which is sequential can bedetermined if the value of the variable data on the first package in thelot of packaging material is supplied by the package printer or is readfrom the first package in the lot. For example, in a lot of one hundredsequentially numbered packages in which the first package is numbered0101, the fiftieth package is numbered 0150 as long as no defectivepackages have been located and eliminated. The other package numbersalso will be known. This data can be entered in the database andassociated with a second set of data. The database can later be used torecover certain values in the second set of data for a specific packageby finding or using a value from the first set of data. The database canalso be used to identify which first data value or values correspond toa specific value of the second set of data.

As indicated above, the machine read data are stored in a computerdatabase. In some cases, the database is automatically updated withinformation such as the location, date, time, item style, state of themanufacturing or packaging line, etc. This information may come, forexample, from the packaging machine and may be input into the computerbefore or after the variable data are machine read depending uponwhether the variable data are read before or after filling. The data canbe maintained in electronic form and/or printed in document form. Themachine reading and association of the variable data, which has beenprinted at the package printer, eliminates the need for a printingprocess at the packaging facility.

The filled and read packages are then transported or sent to storage at24. Meanwhile, the data that were read at 22 and the associated data canbe used by the packaging facility, and some of the data can be madeavailable to an actual or potential customer at 26. The data can be usedfor a variety of quality control purposes. For example, the data can beused for pinpointing the packaging time and/or conditions for aparticular item that is later found to be defective, locating aparticular defective item or set of items, and responding to informationrequests from customers.

Referring next to FIG. 2, a process of product packaging is shown and isdesignated as 100. Packaging material is obtained at 112 and printedwith non-variable data and variable data at 114. The packaging materialoptionally is pre-formed at 116 before and/or after delivery to apackaging facility packaging line at 118. Before filling, the quality ofthe packaging material is checked at 119 using an automated qualitychecking device and any unacceptable packaging material is collected at121. Non-limiting examples of suitable quality checking devices includedigital scanners, cameras, and video cameras. This quality controlprocess is particularly advantageous if substantial pre-forming takesplace after delivery from the package printer.

In one embodiment, if the package printer delivers long rolls ofpackaging material, and the package printer's own quality controlprocedure (not shown) has determined that a portion of material in thecenter of the roll is of substandard quality, the package printer canprovide the packaging facility with the variable data which appear onthe substandard packaging, thereby enabling the defective packaging tobe removed from the packaging line without wasting the acceptable partsof the roll. The remaining packaging is filled at 120 and the variabledata are read at 122 at the time of filling and are associated withother data soon thereafter. It is possible to combine checking ofpackaging quality at 119 and reading of variable data into a singlereading stage in which defective packages from the middle of a roll arelocated by reading the variable data and are then removed from thepackaging line before filling.

After the variable data have been read and associated, the filledpackages are transported or stored at 124. Data, including the variabledata and any data associated with the variable data, can be madeavailable to others in the packaging facility and/or to actual orpotential customers at 126.

In the embodiment shown in FIG. 3, a process for product packaging isshown and is designated as 200. Quality checking and removal ofdefective packaging takes place at the package printer. Packagingmaterial is obtained at 212, printed with non-variable data and variabledata at 214, and optionally preformed at 216. After any pre-formingtaking place at the package printer, the package quality isautomatically inspected at 219 using a digital scanner, camera, videocamera, or another suitable device and rejected packaging is collectedat 221. Acceptable packaging is delivered to the packaging facility at218, where any additional pre-forming that is required takes place. Thevariable data are then determined at 222 at the time of filling at 220and are associated with other data soon thereafter. The data can bedetermined by machine reading each package, or by determining the firstvalue in the lot and sequentially determining the variable data from thestarting point in the lot, as when the data constitute a numericalsequence. Filled packages are transported or stored at 224. The datathat were machine read, and/or the associated data, can be madeavailable to others in the packaging facility and/or potential customersat 226.

FIG. 4 shows a system of hardware for practicing the processes shown inFIGS. 1-3. The overall system is designated as 50. A package printercomputer 54 controls a printing device 56, which prints the variabledata 58 on the packaging material 64. Optionally, the package printercomputer 56 also controls the printing of the non-variable data 60 onthe packaging 64 using printing device 56 or another printing device(not shown). The printed packaging 64 is then delivered to the packagingfacility where the product 66 to be packaged is automatically packagedusing packaging machine 68. The data reader 70 reads the variable dataat the time of packaging. FIG. 4 depicts machine reading after thepackage is filled, although, as indicated above, reading can occurbefore the package is filled. The packaging computer 72 stores the readdata and associates it with other data, some of which optionally can beobtained from the packaging machine 68. The filled package 74 is readyfor transport or storage. The packaging computer 72 usually is connectedto a server 75, which typically is also connected to other computers inthe packaging facility.

As is also shown in FIG. 4, in some cases the package printer will havea package pre-former 76 to cut, fold, and/or adhere packaging materialto form packages. The preformed packages 64′ can be inspected using aninspection apparatus 77 and rejected packaging can be collected using arejected packaging collection device 78. The remaining packaging is thendelivered to the packaging facility. In certain cases, the packagingfacility will have a package pre-former 80 to cut, fold, and/or adherepackaging material to form packages. The preformed packages 64′optionally can be inspected using an inspection apparatus 82 andrejected packaging can be collected using a rejected packagingcollection device 84. Occasionally, when package quality standards areparticularly high and part of the pre-forming occurs at the packageprinter while the rest of the pre-forming occurs at the packagingfacility, inspection equipment and rejected package collection equipmentcan used at both the package printer and the packaging facility.

It will be appreciated that various of the above-disclosed and otherfeatures and functions, or alternatives thereof, may be desirablycombined into many other different systems or applications. Also thatvarious presently unforeseen or unanticipated alternatives,modifications, variations or improvements therein may be subsequentlymade by those skilled in the art which are also intended to beencompassed by the following claims.

1-24. (canceled)
 25. A system for identifying packages in a group,comprising: a first printing device configured to print variable data onthe packages, the first printing device being connected to a firstcomputer, an automatic packaging machine disposed at a remote locationrelative to the first printing device, a variable data machine readerpositioned proximate the automatic packaging machine, and a secondcomputer connected to the variable data reader, the second computerstoring the variable data in a computer database and associating thevariable data with other data in the computer database.
 26. The systemof claim 25, further comprising a package pre-forming device positionedbefore the automatic packaging machine.
 27. The system of claim 25,further comprising an automated package quality reader disposedproximate the automatic packaging machine.
 28. The system of claim 25,wherein the computer database is used to recover a value from the secondset of data for a specific package using a value from the first set ofvariable identifying data.
 29. The system of claim 25, wherein thecomputer database is used to identify which values in the first set ofvariable data correspond to specific values of the second set of data.30. A system for identifying packages in a group, comprising: a firstprinting device configured to print variable data on the packages, thefirst printing device being connected to a first computer, an automaticpackaging machine disposed at a remote location relative to the firstprinting device, and a variable data machine reader positioned proximatethe automatic packaging machine.
 31. The system of claim 25, wherein thepackages are grouped in lots, each of which contains at least 50packages, and each package within a lot is printed with differentvariable data.
 32. The system of claim 30, wherein the packages aregrouped in lots, each of which contains at least 50 packages, and eachpackage within a lot is printed with different variable data.
 33. Thesystem of claim 25, wherein the packages are grouped in lots, each ofwhich contains at least 50 packages, and each package within aparticular lot is printed with the same variable data.
 34. The system ofclaim 30, wherein the packages are grouped in lots, each of whichcontains at least 50 packages, and each package within a particular lotis printed with the same variable data.